CN112821034A - Portable multi-service data distributed base station based on broadband Mesh self-organization - Google Patents

Abstract

The invention provides a portable multi-service data distributed base station based on a broadband Mesh self-assembly, which comprises a shell, a broadband Mesh self-assembly core motherboard, a battery power supply module, a universal double MIMO antenna array interface, a magnetic type camera expansion platform and a connecting piece, wherein the shell is provided with a plurality of groups of antennas; the battery power supply module is connected with the broadband Mesh self-assembly core motherboard; the universal double MIMO antenna array interface is arranged on the bottom surface of the shell and connected with the broadband Mesh ad hoc core motherboard; the magnetic type camera expansion platform is arranged on the bottom surface of the shell; the connecting piece is arranged on the top surface of the shell. The portable multi-service data distributed base station based on the broadband Mesh self-organization is designed to be closer to the actual use environment, the added connecting piece can be quickly connected and separated with a tripod, a lifting rod and the like, and the portable multi-service data distributed base station can be completed by non-professionals; the added universal double MIMO antenna array interface can facilitate the user to adjust the receiving and transmitting directions of the antennas in real time.

Description

Portable multi-service data distributed base station based on broadband Mesh self-organization

Technical Field

The invention relates to the technical field of ad hoc network communication, in particular to a portable multi-service data distributed base station based on broadband Mesh ad hoc.

Background

Wireless communication products are changing day by day, base station products are more full of the line, and the words such as distributed arrangement, strong wireless environment adaptability, automatic optimization of network topology, extremely low network overhead, convenient construction and the like gradually lead the development direction of the next generation of distributed base stations, and are gradually applied to a plurality of private area and wide area networks in the future.

The portable distributed multi-service data communication base station is derived from radio station products, is later developed into a traditional mobile terminal access internet interface device, but most of the portable distributed multi-service data communication base station belongs to operator installation and maintenance, and when a small number of mobile base station products need professional installation personnel and professional load-bearing firmware, the portable distributed multi-service data communication base station generally needs to be elevated to carry out wide area coverage, and if the portable distributed multi-service data communication base station needs to be moved, the mobile base station needs to be detached and then.

Disclosure of Invention

The invention provides a broadband Mesh self-organizing-based portable multi-service data distributed base station, which is used for solving the problem that the existing base station product is inconvenient to move.

The invention provides a portable multi-service data distributed base station based on a broadband Mesh self-assembly, which comprises a shell, a broadband Mesh self-assembly core motherboard, a battery power supply module, a universal double MIMO antenna array interface, a magnetic type camera expansion platform and a connecting piece, wherein the shell is provided with a plurality of groups of antennas;

the broadband Mesh ad hoc core motherboard and the battery power supply module are arranged in the shell, and the battery power supply module is connected with the broadband Mesh ad hoc core motherboard;

the universal double MIMO antenna array interface is arranged on the bottom surface of the shell and connected with the broadband Mesh ad hoc core motherboard;

the magnetic type camera expansion platform is arranged on the bottom surface of the shell and used for fixing the camera module in a magnetic adsorption manner;

the connecting piece is arranged on the top surface of the shell and is detachably connected with the support.

According to the portable multi-service data distributed base station based on the broadband Mesh self-organization, the bottom surface of the magnetic type camera expansion platform is arranged in a regular polygon shape, and a clamp spring tabletting device is arranged on the bottom surface of the magnetic type camera expansion platform.

According to the portable multi-service data distributed base station based on the broadband Mesh self-assembly, a battery ear buckle sleeve is arranged in a shell, and a battery power supply module is detachably connected with the shell through the battery ear buckle sleeve;

the battery power supply module is connected with a portable handle, and the portable handle is far away from one end of the battery power supply module, which is used for being connected with the battery ear buckle sleeve in a buckling manner;

under the condition that the battery power supply module is connected with the shell through the battery ear buckle sleeve, the battery power supply module is located in the shell, and the portable handle is located outside the shell.

According to the portable multi-service data distributed base station based on the broadband Mesh self-assembly, the universal double MIMO antenna array interface is connected with the shell through the universal antenna steering joint;

the shell is internally provided with a miniature auxiliary motor, and the miniature auxiliary motor is in power coupling connection with the universal antenna steering joint.

The invention provides a broadband Mesh ad hoc based portable multi-service data distributed base station, wherein a shell comprises a mother box and a box cover, the top of the mother box is open, and the box cover can detachably cover the opening of the mother box;

the broadband Mesh ad hoc core motherboard, the battery power supply module, the universal double-MIMO antenna array interface and the magnetic-type camera expansion platform are arranged in the mother box;

the connecting piece is arranged on the box cover.

According to the invention, the portable multi-service data distributed base station based on the broadband Mesh self-organization is provided, and the connecting piece is a fast rotating connecting cam;

the quick rotating connecting cam comprises an external connecting rotating convex opening, a quick rotating connecting cam fixing interface and a bilateral rotating fastening piece;

the external connection rotating convex opening, the rapid rotation connection cam fixing interface and the bilateral rotation fastening piece are all arranged in an annular mode, and the external connection rotating convex opening and the rapid rotation connection cam fixing interface are respectively sleeved inside and outside the bilateral rotation fastening piece;

the quick rotating connecting cam fixing interface is fixedly connected with the shell through a screw connector, and the quick rotating connecting cam fixing interface is fixedly connected with the bilateral rotating fastening connector through a threaded structure;

the outer connection rotary lug is fixedly connected with the bilateral rotary fastening piece through a buckle structure, and an internal thread is arranged on the inner side face of the outer connection rotary lug so as to be in threaded connection with the support through the internal thread.

The invention provides a portable multi-service data distributed base station based on a broadband Mesh ad hoc, which further comprises a power output interface, wherein the power output interface is outwards arranged on the shell and connected with a core motherboard of the broadband Mesh ad hoc.

The invention provides a portable multi-service data distributed base station based on a broadband Mesh ad hoc, which further comprises a display module, wherein the display module is outwards arranged on the shell and connected with a core motherboard of the broadband Mesh ad hoc.

The invention provides a portable multi-service data distributed base station based on a broadband Mesh ad hoc, which further comprises a one-key on-off networking switch, wherein the one-key on-off networking switch is outwards arranged on the shell and is connected with a broadband Mesh ad hoc core motherboard;

the one-key on-off networking switch and the display module are arranged on the same side face of the shell.

The invention provides a portable multi-service data distributed base station based on a broadband Mesh ad hoc, which further comprises a positioning module interface, wherein the positioning module interface is outwards arranged on the shell and is connected with a core motherboard of the broadband Mesh ad hoc.

The portable multi-service data distributed base station based on the broadband Mesh self-organization is designed to be closer to the actual use environment, the added connecting piece can be quickly connected and separated with a tripod, a lifting rod and the like, and the portable multi-service data distributed base station can be completed by non-professionals; the added universal double MIMO antenna array interface can facilitate the user to adjust the receiving and transmitting directions of the antennas in real time.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a front side of a broadband Mesh ad hoc based portable multi-service data distributed base station provided by the present invention;

FIG. 2 is a schematic view of the interior of the parent box of FIG. 1;

FIG. 3 is a schematic view of the bottom surface of the master container of FIG. 1;

FIG. 4 is a schematic view of the construction of the lid of FIG. 1;

FIG. 5 is a schematic view of the construction of the knuckle of FIG. 1;

reference numerals:

1: a fast rotation connecting cam; 2: LED real-time link status indication panel 3: an anti-slip heat dissipation groove;

4: an embedded magnetic type camera expansion base; 5: a regular octagonal magnetic-type connector; 6: a real-time electric quantity display panel;

7: a universal dual MIMO antenna array interface; 8: a universal antenna steering joint; 9: a micro auxiliary motor;

10: a carrying handle; 11: a battery power supply module; 12: a battery ear buckle sleeve;

13: a one-key startup and shutdown networking switch; 14: a mother box; 15: a power input interface;

16: a GPS/Beidou connector interface; 17: a power output interface; 18: a first Ethernet interface;

19: a second Ethernet interface; 20: the broadband Mesh self-organizing core motherboard; 21: an LED display lamp group;

22: a box cover; 23: the outer part is connected with a rotary convex opening; 24: the cam fixing interface is connected in a fast rotating manner;

25: bilateral rotation fastening pieces; 26: fixing the bolt; 27: an SMA antenna fixed rotator;

28: and carrying in the direction.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The broadband Mesh ad hoc based portable multi-service data distributed base station of the present invention is described below with reference to fig. 1 to 5, and as shown in fig. 1, the broadband Mesh ad hoc based portable multi-service data distributed base station (hereinafter referred to as a portable device) includes a housing, a broadband Mesh ad hoc core motherboard 20 (hereinafter referred to as a motherboard 20), a battery power supply module 11, a universal dual MIMO antenna array interface 7, a magnetic-type camera expansion platform, and a connecting component.

As shown in fig. 1 and 2, the core motherboard 20 and the battery power module 11 are disposed in the housing, and the battery power module 11 is connected to the core motherboard 20. Alternatively, as shown in fig. 1, 2 and 4, the housing comprises a female box 14 and a box cover 22, the top of the female box 14 is open, and the box cover 22 is detachably covered on the open of the female box 14 (for example, the box cover 22 and the female box 14 are nested and engaged by stainless steel riveting turnbuckles, so that the portable device can achieve the waterproof and sand-proof protection level of IP 65); the core mother board 20, the battery power supply module 11, the universal double-MIMO antenna array interface 7 and the magnetic type camera expansion platform are arranged in the mother box 14, and the connecting piece is arranged in the box cover 22. For example, the motherboard 20 and the rf module are bolted to the mother box 14. And the outer wall of the shell is provided with an anti-skid heat dissipation groove 3, a heat dissipation assembly is arranged in the shell, the heat dissipation assembly can dissipate the heat of the portable equipment through the anti-skid heat dissipation groove 3 of the shell, the shell can be made of aluminum alloy, and the shell can be arranged in a cuboid shape.

As shown in fig. 1 and fig. 2, in the present embodiment, a battery ear buckle sleeve 12 is disposed in the housing, and the battery power supply module 11 is detachably connected to the housing through the battery ear buckle sleeve 12; the battery power supply module 11 is connected with a portable handle 10, and the portable handle 10 is far away from one end of the battery power supply module 11, which is used for being connected with a battery ear buckle sleeve 12 in a buckling manner; under the condition that the battery power supply module 11 is connected with the shell through the battery ear buckle sleeve 12, the battery power supply module is positioned in the shell, and the carrying handle 10 is positioned outside the shell. The battery power module 11 is provided with a carrying handle 10, so that the battery power module 11 can be replaced conveniently, and the mobile device can be moved conveniently.

As shown in fig. 3, in the present embodiment, the portable device further includes a power input interface 15 and a power output interface 17, and the power input interface 15 and the power output interface 17 are disposed on the housing and connected to the core motherboard 20. The portable device can be powered by the battery power module 11 and the power output interface 17.

As shown in fig. 1, the universal dual MIMO antenna array interface 7 is disposed on the bottom surface of the housing, and the universal dual MIMO antenna array interface 7 is connected to the core motherboard 20. Specifically, as shown in fig. 1 and 5, in the present embodiment, the universal dual MIMO antenna array interface 7 is connected with the housing through a universal antenna steering joint 8; a micro auxiliary motor 9 is arranged in the shell, and the micro auxiliary motor 9 is in power coupling connection with the universal antenna steering joint 8. In view of the situation that frequency spectrum resources and antenna transmitting power cannot be changed, in order to obtain high system channel capacity and channel reliability as much as possible and comprehensively consider factors such as volume, weight and the like, the portable device adopts a revolutionary 2-transmission 2-reception universal double-MIMO antenna array interface 7, a main and standby working mode (carrier frequency is adjusted through software) of double wireless channel design, a bottom micro auxiliary motor 9 rotates, a universal antenna steering joint 8 can be driven, and in addition, the micro auxiliary motor 9 can rotate in a wireless remote control mode in consideration of actual operation possibility, so that steering of the universal double-MIMO antenna array interface 7 is realized. As shown in fig. 5, in the present embodiment, the universal antenna steering joint 8 includes an SMA antenna fixing rotator 27 and a plurality of direction bearings 28, the SMA antenna fixing rotator 27 is connected to the output shaft of the miniature auxiliary motor 9 through a fixing bolt 26, the plurality of direction bearings 28 are arranged along the circumference of the SMA antenna fixing rotator 27, the portion of each direction bearing 28 connected to the SMA antenna fixing rotator 27 is made of a memory alloy material, and the direction bearings 28 are used for fixing the antenna.

As shown in fig. 1 and 3, the bottom surface of casing is located to formula camera extension platform is inhaled to magnetism for the fixed camera module of magnetic attraction, and the bottom surface of formula camera extension platform is the regular polygon setting to magnetism, and the bottom surface of formula camera extension platform is inhaled to magnetism is equipped with jump ring film clamp. In this embodiment, magnetism is inhaled formula camera extension platform and is inlayed the middle part of locating female box 14, magnetism is inhaled formula camera extension platform and is inhaled formula connector 5 including embedded magnetism and inhale formula camera extension base 4 and regular octagon magnetism, the hollow roll of edge tape crimping groove of the inner edge of embedded magnetism formula camera extension base 4, the outer fringe is regular octagon, inhale the chassis through the fixed regular octagon of hexagon socket head cap screw magnetism on the one hand, on the other hand the inslot wire circular telegram of crimping forms strong magnetic field and adsorbs the camera, the fixed camera module of magnetic field that formula connector 5 was through forming is inhaled to regular octagon magnetism, and magnetism is inhaled formula camera extension platform and is reserved the motherboard interface, can be connected with the camera module, various interface device are connected to the usable regular octagon advantage. Wherein, formula camera extension platform and battery power module 11 are all opened the micropore and are connected with core mother board 20 at the corresponding face of casing through the wire to magnetism.

As shown in fig. 1 and 4, the connecting member is provided on the top surface of the housing for detachable connection with the bracket. Specifically, in the present embodiment, the connecting member is a quick-rotation connecting cam 1; the fast rotary connecting cam 1 comprises an external connecting rotary lug 23, a fast rotary connecting cam fixed interface 24 and a bilateral rotary fastening piece 25; the external connection rotary lug 23, the quick rotary connection cam fixed interface 24 and the bilateral rotary fastening piece 25 are all arranged in an annular shape, and the external connection rotary lug 23 and the quick rotary connection cam fixed interface 24 are respectively sleeved inside and outside the bilateral rotary fastening piece 25; the fast rotary connecting cam fixing interface 24 is fixedly connected with the shell through a screw connector, and the fast rotary connecting cam fixing interface 24 is fixedly connected with the bilateral rotary fastening piece 25 through a thread structure; the outer connection rotary lug 23 is fixedly connected with the bilateral rotary fastening piece 25 through a buckle structure, and the inner side surface of the outer connection rotary lug 23 is provided with an internal thread so as to be connected with the support through the internal thread and the support thread. The quick rotary connecting cam 1 which is additionally arranged can be quickly connected and separated with a tripod, a lifting rod and the like in a rotary mode, and non-professional personnel can complete the quick rotary connecting.

As shown in fig. 1, in this embodiment, the portable device further includes a display module, which is disposed outwardly of the housing and connected to the core motherboard 20. Specifically, the display module comprises an LED real-time link state indication panel 2 and a real-time electric quantity display panel 6, the LED real-time link state indication panel 2 is allocated by a system through an LED display lamp group 21 to display in real time, the LED display lamp group 21 is controlled by a system software layer, the running state of equipment, the link quality and other information are indicated in real time, and the fault location of general equipment by non-professionals is greatly facilitated. The real-time power display panel 6 is used for SYS indication, ETH indication and power indication.

As shown in fig. 1, in this embodiment, the portable device further includes a one-key on-off networking switch 13, where the one-key on-off networking switch 13 is disposed on the housing and connected to the core motherboard 20; the one-key on-off networking switch 13 and the display module are arranged on the same side face of the shell. And the Mesh networking is carried out on the basis of self-starting of the equipment.

The portable equipment comprises a core motherboard 20 and a C-waveband radio frequency module, wherein the core motherboard 20 comprises a network processor, the core motherboard 20 and the C-waveband radio frequency module are fixed in a shell through bolts, the radio frequency card is convenient to replace and matched with a heat dissipation assembly, and the heat of the equipment is dissipated through the shell. As shown in fig. 2 and 3, in the present embodiment, the portable device further includes a positioning module interface, which is disposed on the housing and is connected to the core motherboard 20; specifically, the core motherboard 20 is integrated with a GPS/beidou connector interface 16, and is connected to the C-band radio frequency module through a PCIE interface. Wherein, the GPS/Beidou connector interface 16 is a USB2.0 GPS/Beidou connector interface.

As shown in fig. 2 and 3, in the present embodiment, the portable device further includes a first ethernet interface 18 and a second ethernet interface 19, and the first ethernet interface 18 and the second ethernet interface 19 are disposed outside the housing and connected to the core motherboard 20. For example, the first ethernet interface 18 and the second ethernet interface 19 are both ruggedized ethernet connection interfaces, which facilitates professional overhaul and expanded use.

In this embodiment, the portable device is designed by using a special software functional layer, and is compatible with a standard WIFI protocol, and an indoor environment can serve as a public network access interface.

The portable equipment has the following advantages:

1. the structural design of the portable equipment is closer to the actual use environment, the added fast rotating connecting cam 1 can be fast connected and separated with a tripod, a lifting rod and the like in a rotating mode, and non-professional personnel can complete the operation; the portable power source handle is additionally arranged, so that a user can conveniently move and supply power according to the environment at any time; the added micro auxiliary motor 9 drives the universal antenna steering joint 8, so that a user can conveniently adjust the receiving and transmitting directions of the antenna in real time.

2. This kind of portable equipment is with the help of wireless broadband Mesh from network deployment mode of no center "intelligence", can organize reliable wireless link rapidly certainly when keeping lower network overhead to can carry out local some sudden information storm, balanced network burden from software, hardware two aspects, reach lasting stable transmission effect, if add the camera module through magnetism type camera extension platform, can realize real-time data source collection etc..

3. The portable equipment is simple to operate, the display module can clearly display the current equipment running state or wireless link information and the like, and a basis is provided for overhauling the equipment.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A portable multi-service data distributed base station based on a broadband Mesh self-assembly is characterized by comprising a shell, a broadband Mesh self-assembly core mother board, a battery power supply module, a universal double MIMO antenna array interface, a magnetic type camera expansion platform and a connecting piece, wherein the shell is provided with a plurality of groups of antenna arrays;

the broadband Mesh ad hoc core motherboard and the battery power supply module are arranged in the shell, and the battery power supply module is connected with the broadband Mesh ad hoc core motherboard;

the universal double MIMO antenna array interface is arranged on the bottom surface of the shell and connected with the broadband Mesh ad hoc core motherboard;

the magnetic type camera expansion platform is arranged on the bottom surface of the shell and used for fixing the camera module in a magnetic adsorption manner;

the connecting piece is arranged on the top surface of the shell and is detachably connected with the support.

2. The broadband Mesh ad hoc based portable multi-service data distributed base station according to claim 1, wherein the bottom surface of the magnetic-type camera expansion platform is in a regular polygon shape, and a clamp spring tabletting device is arranged on the bottom surface of the magnetic-type camera expansion platform.

3. The broadband Mesh ad hoc based portable multi-service data distributed base station according to claim 1, wherein a battery ear buckle sleeve is arranged in the housing, and the battery power supply module is detachably connected with the housing through the battery ear buckle sleeve;

the battery power supply module is connected with a portable handle, and the portable handle is far away from one end of the battery power supply module, which is used for being connected with the battery ear buckle sleeve in a buckling manner;

under the condition that the battery power supply module is connected with the shell through the battery ear buckle sleeve, the battery power supply module is located in the shell, and the portable handle is located outside the shell.

4. The broadband Mesh ad hoc based portable multiservice data distributed base station according to claim 1, wherein said universal dual MIMO antenna array interface is connected to said housing through a universal antenna steering joint;

the shell is internally provided with a miniature auxiliary motor, and the miniature auxiliary motor is in power coupling connection with the universal antenna steering joint.

5. The broadband Mesh ad hoc based portable multi-service data distributed base station according to claim 1, wherein the housing comprises a mother box and a box cover, the top of the mother box is open, and the box cover detachably covers the open of the mother box;

the broadband Mesh ad hoc core motherboard, the battery power supply module, the universal double-MIMO antenna array interface and the magnetic-type camera expansion platform are arranged in the mother box;

the connecting piece is arranged on the box cover.

6. The broadband Mesh ad hoc based portable multiservice data distributed base station according to claim 1, wherein said connecting member is a fast rotating connecting cam;

the quick rotating connecting cam comprises an external connecting rotating convex opening, a quick rotating connecting cam fixing interface and a bilateral rotating fastening piece;

the external connection rotating convex opening, the rapid rotation connection cam fixing interface and the bilateral rotation fastening piece are all arranged in an annular mode, and the external connection rotating convex opening and the rapid rotation connection cam fixing interface are respectively sleeved inside and outside the bilateral rotation fastening piece;

the quick rotating connecting cam fixing interface is fixedly connected with the shell through a screw connector, and the quick rotating connecting cam fixing interface is fixedly connected with the bilateral rotating fastening connector through a threaded structure;

the outer connection rotary lug is fixedly connected with the bilateral rotary fastening piece through a buckle structure, and an internal thread is arranged on the inner side face of the outer connection rotary lug so as to be in threaded connection with the support through the internal thread.

7. The portable multi-service data distributed base station based on broadband Mesh ad hoc as claimed in claim 1, further comprising a power output interface, said power output interface being disposed outwardly of said housing and connected to said broadband Mesh ad hoc core motherboard.

8. The distributed bs based on broadband Mesh ad hoc network as claimed in claim 1, further comprising a display module, wherein the display module is disposed outwardly of the housing and connected to the core motherboard of the broadband Mesh ad hoc network.

9. The portable multi-service data distributed base station based on the broadband Mesh ad hoc network of claim 8, further comprising a one-key on-off networking switch, wherein the one-key on-off networking switch is outwardly arranged on the housing and connected with the broadband Mesh ad hoc core motherboard;

the one-key on-off networking switch and the display module are arranged on the same side face of the shell.

10. The portable multi-service data distributed base station based on broadband Mesh ad hoc as claimed in claim 1, further comprising a positioning module interface, said positioning module interface being disposed outwardly of said housing and connected to said broadband Mesh ad hoc core motherboard.

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